Phylogenetic relationships, biofilm formation, motility, antibiotic resistance and extended virulence genotypes among Escherichia coli strains from women with community-onset primitive acute pyelonephritis.

The present work set out to search for a virulence repertoire distinctive for Escherichia coli causing primitive acute pyelonephritis (APN). To this end, the virulence potential of 18 E. coli APN strains was genotypically and phenotypically assessed, comparatively with 19 strains causing recurrent cystitis (RC), and 16 clinically not significant (control, CO) strains. Most of the strains belong to phylogenetic group B1 (69.8%; p<0.01), and APN strains showed unique features, which are the presence of phylogroup A, and the absence of phylogroup B2 and non-typeable strains. Overall, the most dominant virulence factor genes (VFGs) were ecpA and fyuA (92.4 and 86.7%, respectively; p<0.05), and the mean number of VFGs was significantly higher in uropathogenic strains. Particularly, papAH and malX were exclusive for uropathogenic strains. APN and RC strains showed a significantly higher prevalence of fyuA, usp, and malX than of CO strains. Compared to RC strains, APN ones showed a higher prevalence of iha, but a lower prevalence of iroN, cnf1, and kpsMT-II. Hierarchical cluster analysis showed a higher proportion of two gene clusters (malX and usp, and fyuA and ecpA) were detected in the APN and RC groups than in CO, whereas iutA and iha clusters were detected more frequently in APN strains. The motility level did not differ among the study-groups and phylogroups considered, although a higher proportion of swarming strains was observed in APN strains. Antibiotic-resistance rates were generally low except for ampicillin (37.7%), and were not associated with specific study- or phylogenetic groups. APN and RC strains produced more biofilm than CO strains. In APN strains, iha was associated with higher biofilm biomass formation, whereas iroN and KpSMT-K1 were associated with a lower amount of biofilm biomass. Further work is needed to grasp the virulence and fitness mechanisms adopted by E. coli causing APN, and hence develop new therapeutic and prophylactic approaches.

[Therapy of glucocorticoid induced osteoporosis]. / Terapia dell'osteoporosi da glucocorticoidi.

Glucocorticoid-induced osteoporosis (GIO) is a major cause of secondary osteoporosis that starts early after the beginning of therapy even for low drug doses. Glucocorticoids are used for the treatment of immunologic nephropathies and in the setting of kidney transplant. In clinical practice, a number of algorithms are available; they allow us to estimate the long-term risk of major osteoporotic fracture; but none of them is specific for GIO. To date, the therapeutic approach comprises both general measures aimed at correcting calcium and vitamin D intake, and drugs (bisphosphonates, teriparatide, hormone replacement therapy, denosumab) that ameliorate bone mineral density and patient outcomes.

Cutting Balloon Angioplasty (CBA) for the Treatment of Renal Artery Fibromuscular Dysplasia (FMD) in Six Patients: 5-Year Long-Term Results.

PURPOSE: To evaluate long-term outcomes in terms of hypertension control, recurrent stenosis, and reinterventions from patients who underwent cutting balloon angioplasty (CBA) for symptomatic renal artery fibromuscular dysplasia (FMD). MATERIALS AND METHODS: From 2011, six consecutive renal artery FMD women underwent CBA for poorly controlled hypertension, despite antihypertensive therapy. Follow-up consisted of blood pressure monitoring and duplex ultrasonography at 1, 6, and 12 months and thereafter annually for 5 years. RESULTS: All treatments were technically successful. Recurrence of hypertension was found in two patients within 12 months, and reinterventions were performed using CBA. CONCLUSION: Results show the efficacy of CBA for renal artery FMD.

Proteomic Investigations into Hemodialysis Therapy.

The retention of a number of solutes that may cause adverse biochemical/biological effects, called uremic toxins, characterizes uremic syndrome. Uremia therapy is based on renal replacement therapy, hemodialysis being the most commonly used modality. The membrane contained in the hemodialyzer represents the ultimate determinant of the success and quality of hemodialysis therapy. Membrane's performance can be evaluated in terms of removal efficiency for unwanted solutes and excess fluid, and minimization of negative interactions between the membrane material and blood components that define the membrane's bio(in)compatibility. Given the high concentration of plasma proteins and the complexity of structural functional relationships of this class of molecules, the performance of a membrane is highly influenced by its interaction with the plasma protein repertoire. Proteomic investigations have been increasingly applied to describe the protein uremic milieu, to compare the blood purification efficiency of different dialyzer membranes or different extracorporeal techniques, and to evaluate the adsorption of plasma proteins onto hemodialysis membranes. In this article, we aim to highlight investigations in the hemodialysis setting making use of recent developments in proteomic technologies. Examples are presented of why proteomics may be helpful to nephrology and may possibly affect future directions in renal research.

Proteomic investigations on the effect of different membrane materials on blood protein adsorption during haemodialysis.

BACKGROUND: During haemodialysis procedure, the contact of blood with the membrane material contained in the hemodialyser results in protein deposition and adsorption, and surface-adsorbed proteins may trigger a variety of biological pathways with potential pathophysiologic consequences. The present work was undertaken to examine for protein adsorption capacity of two membranes used for clinical haemodialysis, namely cellulose triacetate (a derivatized cellulosic membrane) and the synthetic polymer polysulfone-based helixone. MATERIALS AND METHODS: We performed a prospective cross-over study in chronic haemodialysis patients, routinely treated with a cellulose triacetate dialyser (n=3) or with a helixone dialyser (n=3). Dialysers from each patient were obtained after dialysis session, and flushed with a litre of saline to remove residual blood. Adsorbed proteins were then eluted by a strong chaotropic buffer. Patients were next switched to the other membrane dialyser for four weeks, at the end of this period protein adsorption being evaluated again. After silver staining, expression profile protein of the two groups was analyzed by 2-DE gels, analyzed and identified by Peptide Mass-finger printing and MALDI-TOF-MS/MS sequency. Moreover nanoLC-MS/MS shotgun profiling was pursued using a semi-quantitative label free approach by emPAI data analysis. RESULTS: A total of 54 differentially expressed proteins were identified: 22 proteins more concentrated in helixone membrane (predominantly low abundant plasma proteins) and 32 in cellulose triacetate (most represented by high abundant plasma proteins). The difference proved to be related to membrane material and not to patient's characteristics. DISCUSSION: Proteomic techniques represent a useful approach for the investigation of proteins surface-adsorbed onto a haemodialysis membrane, and can also be applied for critical assessment to compare efficiencies of different dialyser membrane materials in the adsorption of plasma proteins.

Toward personalized hemodialysis by low molecular weight amino-containing compounds: future perspective of patient metabolic fingerprint.

BACKGROUND: L-carnitine deficiency is commonly observed in chronic hemodialysis patients, and this depletion may cause clinical symptoms like muscle weakness, anaemia, and hypotension. MATERIALS AND METHODS: We pursued a targeted metabonomics investigation in 28 hemodialysis patients (13 non diabetics and 15 diabetics) and in 10 age-matched healthy controls, on plasma levels of all carnitine esters and of several amino acids. Samples were taken before and after the first hemodialysis treatment of the week. Multiplexed data were collected in LCMRM (Multiple Reaction Monitoring) and analysed by unsupervised multivariate analysis. RESULTS: In diabetic uremic patients, we observed lower values of propionylcarnitine than in other groups, while acylcarnitine concentration was higher in uremics compared to controls. The hemodialysis session induced a decline in free, short-chain, medium-chain and dicarboxylic acylcarnitines, whereas the long chain acylcarnitines remained unaffected. Plasma levels of amino acid proline, ornithine, citrulline and serine were significantly elevated in uremic patients before dialysis compared to controls. For most tested plasma amino acids, a significant reduction after hemodialysis session was found. DISCUSSION: Our study is the first that investigated on possible modifications of the system of carnitine in diabetic patients in hemodialysis not only in relation to the condition of deficiency but also compared to lipid and glucose homeostasis alteration typical of diabetics. We proposed the application of targeted metabolic fingerprint in the management of the hemodialysis patients.

Calcimimetic R-568 and its enantiomer S-568 increase nitric oxide release in human endothelial cells.

BACKGROUND: Calcimimetics, such as R-568, are thought to activate G protein-linked Ca(2+)-sensing receptor (CaSR) by allosterically increasing the affinity of the receptor for Ca(2+) allowing for efficient control of uremic hyperparathyroidism. Several recent studies suggest they possess additional vascular actions. Although it has been postulated that calcimimetics may have a direct effect on CaSR in the blood vessels, further studies are needed to elucidate their vascular CaSR-dependent versus CaSR-independent effects. METHODOLOGY/PRINCIPAL FINDINGS: Focusing on human umbilical vein endothelial cells (HUVECs), we studied the CaSR expression and distribution by Immunofluorescence and Western Blot analysis. CaSR function was evaluated by measuring the potential effect of calcimimetic R-568 and its enantiomer S-568 upon the modulation of intracellular Ca(2+) levels (using a single cell approach and FURA-2AM), in the presence or absence of Calhex-231, a negative modulator of CaSR. To address their potential vascular functions, we also evaluated R- and S-568-stimulated enzymatic release of Nitric Oxide (NO) by DAF-2DA, by Nitric Oxide Synthase (NOS) radiometric assay (both in HUVECs and in Human Aortic Endothelial Cells) and by measuring eNOS-ser1177 phosphorylation levels (Immunoblotting). We show that, although the CaSR protein was expressed in HUVECs, it was mainly distributed in cytoplasm while the functional CaSR dimers, usually localized on the plasma membrane, were absent. In addition, regardless of the presence or absence of Calhex-231, both R- and S-568 significantly increased intracellular Ca(2+) levels by mobilization of Ca(2+) from intracellular stores, which in turn augmented NO release by a time- and Ca(2+)-dependent increase in eNOS-ser1177 phosphorylation levels. CONCLUSIONS/SIGNIFICANCE: Taken together, these data indicate that in human endothelium there is no stereoselectivity in the responses to calcimimetics and that CaSR is probably not involved in the action of R- and S-568. This suggests an additional mechanism in support of the CaSR-independent role of calcimimetics as vasculotrope agents.

Proteomic analysis of protein adsorption capacity of different haemodialysis membranes.

Protein-adsorptive properties are a key feature of membranes used for haemodialysis treatment. Protein adsorption is vital to the biocompatibility of a membrane material and influences membrane's performance. The object of the present study is to investigate membrane biocompatibility by correlating the adsorbed proteome repertoire with chemical feature of the membrane surfaces. Dialyzers composed of either cellulose triacetate (Sureflux 50 L, effective surface area 0.5 m(2); Nipro Corporation, Japan) or the polysulfone-based helixone (FX40, effective surface area 0.4 m(2); Fresenius Medical Care AG, Germany) materials were employed to develop an ex vivo apparatus to study protein adsorption. Adsorbed proteins were eluted by a strong chaotropic buffer condition and investigated by a proteomic approach. The profiling strategy was based on 2D-electrophoresis separation of desorbed protein coupled to MALDI-TOF/TOF analysis. The total protein adsorption was not significantly different between the two materials. An average of 179 protein spots was visualised for helixone membranes while a map of retained proteins of cellulose triacetate membranes was made up of 239 protein spots. The cellulose triacetate material showed a higher binding capacity for albumin and apolipoprotein. In fact, a number of different protein spots belonging to the gene transcript of albumin were visible in the cellulose triacetate map. In contrast, helixone bound only a small proportion of albumin, while proved to be particularly active in retaining protein associated with the coagulation cascade, such as the fibrinogen isoforms. Our data indicate that proteomic techniques are a useful approach for the investigation of proteins surface-adsorbed onto haemodialysis membranes, and may provide a molecular base for the interpretation of the efficacy and safety of anticoagulation treatment during renal replacement therapy.

[Management of IgA nephropathy]. / La terapia della glomerulonefrite a depositi mesangiali di IgA (IgAN).

The best treatment of IgA nephropathy (Berger's disease) is not well defined and at present no causal therapy is available. Although initially considered benign, we now recognize it as a common cause of end-stage renal disease and the natural history of IgA nephropathy is quite variable. Standard care includes angiotensin-converting enzyme inhibitors (ACEIs) or angiotensin II receptor blockers (ARBs) and corticosteroids, in some cases combined with immunosuppressive drugs. The antiproteinuric and renoprotective effects of ACEIs and ARBs in IgA nephropathy have been firmly established. Treatment with corticosteroids is effective in reducing proteinuria and renal injury. The addition of cytotoxic immunosuppressive agents (cyclophosphamide and azathioprine) can be of benefit in patients with a rapidly progressive disease course. Little information is available about the clinical efficacy of tonsillectomy on long-term renal survival in patiens with IgA nephropathy; at present it cannot be recommended. The treatment of the disease is a work in progress; only better knowledge of its pathogenesis will eventually offer novel therapeutic approaches.

[Nephrotoxicity induced by chemotherapy]. / Nefrotossicita' da chemioterapici.

Abnormal renal function markedly influences the clinical management of cancer patients. While the neoplasm may cause renal damage in itself, the damage may be exacerbated by treatment with chemotherapeutic agents. Since many chemotherapeutic agents are metabolized and excreted through the kidneys, their use may represent a major risk factor for the development of renal abnormalities. Moreover, when renal failure is present before chemotherapy treatment, certain drugs need dose adjustments or are not indicated. Careful monitoring of renal function during chemotherapy is thus necessary and preventive measures should be adopted when possible to reduce the occurrence of renal dysfunction.

Beta2-microglobulin causes abnormal phosphatidylserine exposure in human red blood cells.

The exposure of the aminophospholipid phosphatidylserine on the external leaflet of red blood cell plasma membrane can have several pathophysiological consequences with particular regard to the processes of cell phagocytosis, haemostasis and cell-cell interaction. A significant increase in phosphatidylserine-exposing erythrocytes has been reported in chronic haemodialysis patients and found to be strongly influenced by the uraemic milieu. To identify uraemic compound(s) enhancing phosphatidylserine externalization in erythrocytes, we fractionated by chromatographic methods the ultrafiltrate obtained during dialysis, and examined by flow cytometry the effect of the resulting fractions on phosphatidylserine exposure in human red cells. Chromatographic procedures disclosed a homogeneous fraction able to increase erythrocyte phosphatidylserine exposure. The inducer of such externalization was identified by monodimensional gel electrophoresis and mass spectrometry investigations as beta2-microglobulin. To confirm the beta2-microglobulin effect and to examine the influence of protein glycation (as it occurs in uraemia) on phosphatidylserine erythrocyte exposure, erythrocytes from normal subjects were incubated with recombinant beta2-microglobulin (showing no glycation sites at mass analysis), commercial beta2-microglobulin (8 glycation sites), or with in vitro glycated recombinant beta2-microglobulin (showing multiple glycation sites). Elevated concentrations of beta2-microglobulin (corresponding to plasma levels reached in dialysis patients) increased slightly but significantly the protein's ability to externalize phosphatidylserine on human erythrocytes. Such an effect was markedly enhanced by glycated forms of the protein. Beta2-microglobulin is recognized as a surrogate marker of middle-molecule uraemic toxins and represents a key component of dialysis-associated amyloidosis. Our study adds further evidence to the potential pathophysiologic consequences of beta2-microglobulin accumulation in chronic uraemic patients.

Adsorption and carbonylation of plasma proteins by dialyser membrane material: in vitro and in vivo proteomics investigations.

BACKGROUND: Protein carbonylation is an irreversible and not reparable reaction which is caused by the introduction into proteins of carbonyl derivatives such as ketones and aldehydes, generated from direct oxidation processes or from secondary protein reaction with reactive carbonyl compounds. Several studies have demonstrated significantly increased levels of reactive carbonyl compounds, a general increase in plasma protein carbonyls and carbonyl formation on major plasma proteins in blood from uremic patients, particularly those undergoing chronic haemodialysis. MATERIALS AND METHODS: In the present preliminary study, we first assessed by an in vitro filtration apparatus the possible effects of different materials used for haemodialysis membranes on protein retention and carbonylation. We employed hollow fiber minidialyzers of identical structural characteristics composed of either polymethylmethacrylate, ethylenevinyl alcohol, or cellulose diacetate materials. Protein Western Blot and SDS-PAGE coupled to mass spectrometry analysis were applied to highlight the carbonylated protein-binding characteristics of the different materials. We also investigated in vivo protein carbonylation and carboxy methyl lisine-modification in plasma obtained before and after a haemodialysis session. RESULTS: Our data underline a different capability on protein adsorption associated with the different properties of the filter materials, highlighting the central buffering and protective role of serum albumin. In particular, polymethylmethacrylate and cellulose diacetate showed, in vitro, the highest capacity of binding plasma proteins on the surface of the hollow fiber minidialyzers. CONCLUSIONS: The present study suggests that biomaterials used for fabrication of haemodialysis membrane may affect the carbonyl balance in chronic uremic patients.

L-carnitine inhibits a subset of platelet activation responses in chronic uraemia.

BACKGROUND: Activated uraemic platelets expose the aminophospholipid phosphatidylserine (PS) at their outer surface, which generates a cell procoagulant phenotype and seems at least partly due to an increase in cell caspase-3 activity. L-carnitine (LC) may decrease surface-exposed PS in stored apheresis platelets and inhibit the activity of recombinant caspases, but its effects on platelet activation response with PS externalization have not been ascertained in chronic renal failure. In the present study, we investigated in vitro and in vivo the effects of LC on PS exposure in platelets from chronic uraemic patients. METHODS: Platelet PS-exposure was assayed by flow cytometry using annexin V. Caspase activity in platelets was determined by the cleaving activity of the specific substrate DEVD-pNA and by a flow cytometric assay using rhodamine-fluorescence. The effects of LC in vivo were examined in a prospective cross-over trial including 10 patients on maintenance haemodialysis (HD) who were randomly allocated to two different treatment groups: LC (2 g i.v.) for 4 months followed by placebo (2 g i.v.) for another 4 months (group A), or placebo followed by LC (group B). RESULTS: PS-exposing platelets in blood samples obtained from HD patients were significantly higher than in healthy subjects (P<0.001) under both unstimulated and agonist-stimulated conditions. When uraemic platelets were pre-incubated with LC before agonist stimulation, platelet PS exposure proved to be significantly reduced (-13.7% for 0.5 mM LC and -25% for 5 mM LC). Pre-incubation of uraemic platelets with LC again significantly decreased the cells' caspase activity (P<0.05). In HD patients (Group A), LC supplementation was associated with a significant decrease (P<0.05) in platelet PS exposure followed by a progressive increase during treatment with placebo. In the other group of patients, while no change in platelet PS exposure was observed during the first 4 months of treatment with placebo, a significant reduction (P<0.05) in PS-positive platelets occurred after 2 and 4 months of LC therapy. CONCLUSION: Our data show that LC may reduce, possibly via inhibition of caspase activity, the exposure of PS in activated uraemic platelets. These findings may have implications for the thrombophilic tendency of uraemia.

Mechanisms of uremic erythrocyte-induced adhesion of human monocytes to cultured endothelial cells.

In end-stage renal disease (ESRD) endothelium may represent a key target for the action of circulating elements, such as modified erythrocytes (RBC) and/or plasmatic factors, that may facilitate inflammation and the vasculopathy associated with uremia. We have previously demonstrated that phosphatidylserine (PS) exposure on the surface of RBC from ESRD patients increases RBC-human umbilical vein endothelial cell (HUVEC) interactions and causes decreased nitric oxide (NO) production. We postulated that, besides the pro-inflammatory effects due to decreased NO bio-availability, enhanced ESRD-RBC-HUVEC interactions might directly stimulate pro-inflammatory pathways leading to increased vascular adhesion molecule expression. ESRD-RBC-endothelial cell interactions induced a time-dependent up-regulation of VCAM-1 and ICAM-1 (measured by Western blot (WB) and real-time PCR), associated with mitogen-activated protein kinase (MAPK) activation and impairment of the Akt/endothelial nitric oxide synthase (eNOS) signaling cascade, measured by WB. In reconstitution experiments, normal RBC incubated with uremic plasma showed increased PS exposure and significantly increased VCAM-1 and ICAM-1 mRNA levels when incubated on HUVEC. Interestingly, ESRD-RBC induced increased expression of adhesion molecules was prevented by Annexin-V (AnV, able to mask PS on RBC surface), anti-integrin-alpha(v)beta3, anti-thrombospondin-1 (TSP-1), and PD98059 (a selective inhibitor of MAPK phosphorylation). Moreover, AnV reversed the ESRD-RBC effects on MAPK and Akt/eNOS signaling pathways. Our data demonstrate that, possibly via a direct interaction with the endothelial thrombospondin-(alpha(v)beta3) integrin complex, ESRD-RBC-HUVEC adhesion induces a vascular inflammatory phenotype. Thus, intervention targeting ESRD-RBC increased adhesion to endothelium and/or MAPK and Akt/eNOS pathways may have the potential to prevent vascular lesions under uremic conditions.

Proteomics characterization of protein adsorption onto hemodialysis membranes.

Protein-adsorptive properties are a key feature of membranes used for hemodialysis treatment. Protein adsorption is vital to the biocompatibility of a membrane material and influences membrane's performance. The object of the present study is to investigate membrane biocompatibility by correlating the adsorbed proteome repertoire with structural feature of the membrane surfaces. Minidialyzers of identical structural characteristics composed of either cellulose diacetate or ethylenevinyl alcohol materials were employed to develop an ex vivo apparatus to investigate protein adsorption. Adsorbed proteins were eluted by a strong chaotropic buffer condition and investigated by 2-DE coupled to both MALDI-TOF mass spectrometry (MS) mass fingerprinting and fragmentation analysis on a nanoLC-MS/MS hybrid instrument. Membrane surface characterization included evaluation of roughness (atomic force microscopy), elemental chemical composition (X-ray-photoelectron-spectroscopy), and hydrophilicity (pulsed nuclear magnetic resonance). The present study identifies a number of different proteins as common or characteristic of filter material interaction, showing that proteomic techniques are a promising approach for the investigation of proteins surface-adsorbed onto hemodialysis membrane. Proteomic analysis enables the characterization of protein layers of unknown composition.

Adherence of uremic erythrocytes to vascular endothelium decreases endothelial nitric oxide synthase expression.

BACKGROUND: High prevalence of atherosclerotic cardiovascular events accounts for much of the mortality among patients suffering from end-stage renal disease (ESRD). Endothelial dysfunction as a pathogenic mechanism might contribute to increasing the cardiovascular risk of ESRD. Reduced endothelium-dependent vasodilation has consistently been observed in chronic renal failure patients. Since nitric oxide (NO) is the principal endothelium-derived vasodilator, a reduction in the NO bioavailability may be envisaged in ESRD patients. METHODS: To clarify whether exposure to erythrocytes from ESRD patients might modulate NO release by the endothelium, we evaluated endothelial NO synthase (eNOS) protein levels (Western blot), eNOS mRNA quantity (real-time PCR), and NOS activity (conversion of L-[3H] arginine in L-[3H] citruline) in endothelial cultures stimulated by erythrocytes from healthy subjects and ESRD patients. RESULTS: A time-dependent decrease in eNOS protein levels was evident in cultures treated with erythrocytes from ESRD patients. This observation was consistent with the decreased eNOS mRNA quantities induced by erythrocytes from such patients. Moreover, compared to controls, NOS activity exhibited a significant reduction after incubation with erythrocytes from ESRD patients. The observed eNOS reduction induced by erytrocytes from ESRD patients was totally abolished by annexin V, able to mask red blood cell (RBC) surface-exposed phosphatidylserine. CONCLUSION: These findings suggest that adhesion of erythrocytes from ESRD patients to vascular endothelium may cause a decrease in the levels of eNOS mRNA and protein, and inhibition of NOS activity. This might contribute to endothelial dysfunction, and may play a role in the pathogenesis of cardiovascular disease in ESRD patients.

Blood volume controlled hemodialysis in hypotension-prone patients: a randomized, multicenter controlled trial.

BACKGROUND: Recently we have devised and tested a biofeedback system for controlling blood volume (BV) changes during hemodialysis (HD) along an ideal trajectory (blood volume tracking, BVT), continuously modifying the weight loss rate and dialysate conductivity. This multicenter, prospective, randomized, crossover study aimed to clarify whether BVT (treatment B) can improve hypotension-prone patients' treatment tolerance, compared with conventional hemodialysis (treatment A). METHODS: Thirty-six hypotension-prone patients enrolled from 10 hemodialysis (HD) centers were randomly assigned to either of the study sequences ABAB or BABA, each lasting four months. RESULTS: A 30% reduction in intradialytic hypotension (IDH) events was observed in treatment B as compared with A (23.5% vs. 33.5%, P = 0.004). The reduction was related to the number of IDH in treatment A (y = 0.54x + 5; r = 0.4; P < 0.001): the more IDH episodes in treatment A, the better the response in treatment B. The best responders to treatment B showed pre-dialysis systolic blood pressure values higher than the poor responders (P = 0.04). A 10% overall reduction in inter-dialysis symptoms was obtained also in treatment B compared to A (P < 0.001). Body weight gain, pre-dialysis blood pressure, intradialytic weight loss as well as Kt/V did not differ between the two treatments. CONCLUSIONS: An overall improvement in the treatment tolerance was observed with BVT, particularly intradialytic cardiovascular stability. Patients with the highest incidence of IDH during conventional HD and free from chronic pre-dialysis hypotension seem to respond better. Inter-dialysis symptoms also seem to improve with control of BV.